生化反应工程
- 网络Biochemical Reaction Engineering;bioreaction engineering
生化反应工程-
为了研究超临界CO2作为非水相介质在生化反应工程中的作用,有必要考察超临界CO2处理对微生物活性的影响。
In order to study the role of supercritical CO2 as a nonaqueous medium in the engineering of biochemical reactions , it is necessary to probe the effects of supercritical CO2 treatment on microbial activity .
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生化反应工程与工艺研究进展
Research Progress in Biochemical Reaction Engineering and Technology
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生化反应工程的现况及发展
Current development in biochemical reaction engineering
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本文阐明了生化反应工程的目的、范围和重要性。并对微生物生长、产物形成和基质消耗的本征动力学以及对生物催化剂颗粒或膜的内外扩散影响的宏观动力学作了较系统的介绍。
The aim , scope and importance of biochemical reaction engineering are expounded , and the intrinsic kinetics of microbial growth , product formation arts substrate consumption as well as the macro-kinetics of external and internal diffusion effects of biocatalyst particle or film are systematically introduced .